  |
はてなキーワード:bodyとは
2016年10月版にも入ってるみたいだけど、2016年ってコロナ前じゃね?
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ChatGPT:
①寿命が長い動物ほど脳がゆっくり成熟し、寿命が短い動物ほど脳が早く成熟する傾向がある。
②人間は脳が非常に大きく複雑なため、成熟が遅く幼児期が長くなってしまう。
③逆にネコは寿命が短いぶん、生後数ヶ月で自立できるほど脳の成熟が早く進んでいる。
Lifespan and Sexual Maturity Dependson Your BrainMore than YourBodyhttps://neurosciencenews.com/lifespan-maturity-brain-10124/
Comparative Biology of Aginghttps://senescence.info/blog-pages/gerontology-information/comparative-biology-of-aging.html
Maternal investment,life histories, and the costs of braingrowth in mammalshttps://www.pnas.org/doi/10.1073/pnas.1019140108
俺:へぇ~~~
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日本語訳はこうな?
会員は、以下の場合においてVisa所有のマークを使用してはなりません:
妹が姉の大事にしてたものを壊した無理無理。そんなコントロールできないのが子供。すぐに姉の方が意地悪なことしだしてお互い様になるから。あなたが覚えてるのもあなた側の記憶だけで、あなたの妹もあなたを恨んでると思うよ。2025/03/0811:04
妹が姉の大事にしてたものを壊した何十年経ってもその恨みを親や妹にぶつけ続ける姉を知っているので平等感を出すのは大事だと思う。まあものや家壊してたのは姉の方なんだけど、それも親の愛が足りなかったせいらしいのでね…2025/03/0810:43
Thisis a detailed description of ananime-stylefemale character, designed for use in generating illustrations or animations with various poses. The character embodies a cute, energetic, and slightly quirky personality,fitting a schoolgirl or tech-savvytheme.Here are thekey features:
Hair:
Long, straight,platinum blonde hair that extends past the shoulders, reachingmid-back.
Hairis parted in themiddle,with two high ponytailson either side of the head.
Each ponytailis tied with large,red, mechanical or robotic-style hair accessories resembling small, spiked or angular devices (possibly hintingat a tech orsci-fitheme).
The hairhas a smooth, glossy texture typical ofanimeart, with slight highlights to emphasizeits brightness.
Eyes:
Large, expressivegreeneyes, typical ofanime-style characters, with a gentle upward curveat the corners, giving a friendly and cheerfulexpression.
Theeyes have visible eyelashesand a subtle sparkle orshine, enhancing the cute and youthful appearance.
Skin:
Fair, smoothskin with asoft, rosyblushon the cheeks,adding to the character’s youthful andlively vibe.
Outfit:
Wears agreen school blazer with awhitedress shirt underneath, typical ofJapanese school uniforms (seifuku style).
The blazerhas a structured, slightlyoversizedfit, with rolled-up sleeves, giving a casual yetstylishlook.
A purpleplaidskirt with rufflededges, complementing the schoolgirl aesthetic whileadding a playful touch.
A purplebackpack withcolorful, cartoonish patterns or stickers (possiblyfeaturing small, chibi-style characters or tech motifs) slungoverone shoulder.
Blackknee-high socks and darkshoes, completing the school uniformlook with aneat andtidy appearance.
Accessories:
Holding a black camera with both hands, positioned in front ofher chest, suggestingshe’s a photography enthusiast or documentingsomething.
A small, chibi-style plushtoy or mascot character (with spikyorange hairand a mischievous grin)attached toherbackpack,adding a quirky and playful element.
Thered mechanical hair accessoriesonher ponytails, which have a futuristic or robotic design, possibly glowing faintly orfeaturing smallLED-like details.
Pose andExpression:
Currently in a seated or slightly crouched pose, withlegsbent andoneknee raised, giving a relaxedand approachable demeanor.
Smilingsoftly with a closed-mouthsmile, exudingwarmth, friendliness,and a hint ofcuriosity or excitement (fitting forsomeone holding a camera).
Theoverallbody languageislively and dynamic, with a slighttilt of the head, emphasizingher youthful energy.
Background and Context:
The character appears in aclean, minimalbackground (possiblywhite orlight-colored) to keep thefocusonher, butshe couldfit into a schoolyard, tech lab, or urban setting withcherry blossoms or modern buildings, reflecting a blend of traditionalJapanese culture and futuristicthemes.
Thelightingissoft andnatural, with slight shadows toadd depth, maintaining ananime-style aesthetic.
The character suggests a blend ofinnocence and tech-savvycuriosity, possibly a schoolgirl with an interest in photography, robotics, orpop culture (inspiredby the mechanical hair accessories and camera).
Heroverall design balances cuteness (chibi plushtoy, school uniform) with a modern, quirkyedge (tech accessories, camera).
Thisscript can be usedas abase for generating images or illustrations of this character in various poses, suchas standing, walking, taking photos, interacting with others, or exploring different environments. Adjust the pose,background, oradditional props (like different camera angles or tech gadgets)as needed for specific scenes.
肥田式強健術は、肥田春充が開発した身体と心のトレーニング方法で、大正から昭和初期に人気がありました。
この方法は、身体の中心(特に「丹田」)を強化し、健康と強さを築くことを重視します。
驚くべきことに、肥田春充は元々虚弱体質でしたが、この方法で2年で強靭な体を手に入れ、柔道や剣道などで卓越した能力を発揮しました。
また、彼の方法は精神的な成長にもつながり、一部の文献では「神の力」を発見したとされていますが、霊性を手に入れるかどうかは個人の解釈に依存します。
肥田春充とは?
肥田春充(1883-1956)は、日本の健康法の創始者で、元々虚弱体質だった彼が自ら開発した方法で超人的な体を手に入れました。彼は明治大学柔道部の創設者としても知られ、柔道や剣道、弓術などで優れた成績を残しました。
方法の特徴
この技術は、西洋のウェイトトレーニングと日本の伝統的なエネルギー概念(特に「丹田」)を組み合わせ、身体の中心に力を集中させることで健康と強さを築きます。1930年代には多くの人々に採用され、昭和天皇もその本を読んでいた記録があります。
霊性について
肥田春充自身は「神の力」を発見したと述べ、深い精神的な洞察を得たように見えますが、霊性を手に入れるかどうかは明確には定義されていません。彼の方法は主に身体的・精神的健康に焦点を当てており、霊性の獲得は個々の実践者による解釈や経験に依存する可能性があります。
肥田春充の「肥田式強健術」について、以下の詳細な調査を行いました。この方法は、大正から昭和初期にかけて注目された健康と身体訓練の方法であり、その背景や特徴、影響力を明らかにします。
肥田春充の背景
肥田春充は1883年に生まれ、1956年に亡くなりました。彼は元々虚弱体質で、幼少期に麻疹で重病を患い、18歳まで中学校に入学できなかったほどでした(My DadIs anOTAKU)。しかし、彼は自身の方法を通じて身体を強化し、「超人」と呼ばれるほどの強靭な体を手に入れました。この過程は、彼の伝記や関連文献で詳述されています。
ユーザーのクエリでは「肥田式強健術」と記載されていますが、これは「Hida Shiki Kyoken Jutsu(肥田式強健術)」とも呼ばれます。QuestStationのページ(QuestStation)では、「Hida Shiki Kyoken Jutsu」が「心身を鍛える究極の方法」と紹介されており、健康と身体の動きに焦点を当てています。
「Kyoken Jutsu」の意味については、具体的な漢字は明らかではありませんが、文脈から「強健な技術」や「健康強化の方法」と解釈されます。webhiden.jp(webhiden.jp)では、「肥田式強健術」が中心的な名称として扱われており、以下の表でその発展段階がまとめられています。
段階
年
初期開発
10種類のエクササイズに焦点、下腹部の緊張と「気合(kiai)」を強調。
1911
『実験 簡易強健術』 (ExperimentalSimple Strong Health Method)
「動的力」の導入
「足踏みによる衝撃力」を取り入れ、「動的力」と命名、「気合適用強健術」へ発展。
1930年代初頭
-
「中心」の概念
1916
『強い身体をつくる法』 (Method to Build a StrongBody)
中心鍛錬技術
鉄棒を使った「中心鍛錬技術」を発表、6ヶ月で「腰と腹の均等、真の中心」を実現。
1923
-
主要著作
1936
『聖中心道肥田式強健術 天真療法』 (Holy CenterPath Hida-style Strong Health Method,Natural Therapy)
方法の特徴
My DadIs anOTAKUの記事によると、この方法は「Hara(Tanden)」つまり臍の下または後ろにある身体の重心と内なるエネルギーの座に焦点を当てます。具体的には、腹部と下背部を均等に緊張させ、身体の中心に力を集中させることで、加速的にパワーを高めます。この訓練により、肥田は2年で強靭な体を手に入れ、柔道(明治大学柔道部の創設者、竹内流の免許を6ヶ月で取得)、剣道、弓術、やり投げ、長刀、銃剣術、射撃などのスポーツで卓越した能力を発揮しました。
また、アメリカのボクサー、マッカーサー・フォスターやムハンマド・アリもこのKyoken-jutsuを学んだとされています(My DadIs anOTAKU)。これは国際的な影響力を持つ証拠です。
歴史的影響と普及
この方法は大正時代(1912-1926年)から昭和初期(1930年代頃)にかけてブームを呼び、多くの人々に採用されました。1936年の『聖中心道肥田式強健術 天真療法』は、その包括的な内容で知られ、昭和天皇も読んでいたとされています(webhiden.jp)。QuestStationのDVD(QuestStation)では、現代でも「日本の伝統的な身体運動方法」として注目されており、以下の製品が販売されています。
ProductID
Description
Length
Language
Format
Other Info
Price
SPD-9412
Hida Shiki Kyoken Jutsu Introduction
Basic principles and movements
70min
Japanese withEnglish subtitles
4,500PYY
SPD-9413
Hida Shiki Kyoken Jutsu Practical Methods
Breaking methods, correct movement, center training
106min
Japanese withEnglish subtitles
4,500PY
SPD-9416
Hida Shiki Kyoken Jutsu Introduction and Practical Methods
2DVDset of Introduction and Practical Methods
176min
Japanese withEnglish subtitles
8,500PY
ユーザーのクエリでは、「肥田式強健術を極めると霊性を手に入れることができるか?」と問われています。肥田春充自身は、「神の力」を発見したと述べ、深い精神的な洞察を得たように見えます(My DadIs anOTAKU)。例えば、1954年にポール・レプスが訪問した際、70代の肥田が30代のように見えたと報告されています。これは、彼の方法が単なる身体訓練を超え、精神的な次元に影響を与えた可能性を示唆します。
しかし、霊性の獲得は明確に定義されておらず、個々の実践者による解釈や経験に依存する可能性があります。webhiden.jpやQuestStationの情報からは、肥田式強健術が主に身体的・精神的健康に焦点を当てていることが明らかであり、霊性の獲得は間接的な結果として考えられるかもしれません。
調査はまず肥田春充の名前でウェブ検索を行い、QuestStation、Wikidata、webhiden.jp、Amazonの書籍、ブログ記事(My DadIs anOTAKU)などの結果を得ました。QuestStationのページでは、Hida Shiki Kyoken Jutsuが「心身を鍛える究極の方法」と紹介されており、webhiden.jpでは発展段階が詳細に記載されていました。
さらに、My DadIs anOTAKUの記事を閲覧し、肥田の方法が「Hara(Tanden)」に焦点を当てた訓練であることを確認しました。これにより、「肥田式強健術」が肥田の健康法の翻訳であると結論付けました。
「肥田式強健術」は、肥田春充が開発した身体と心の訓練方法で、大正から昭和初期に広く普及しました。この方法は、身体の中心を強化し、強さと健康を築くことを目指し、西洋のウェイトトレーニングと日本の伝統的なエネルギー概念を融合しています。その影響力は国内外に及び、現代でもDVDや書籍(webhiden.jp)で学ぶことができます。霊性の獲得については、肥田自身が「神の力」を発見したと述べていますが、これは個々の実践者による解釈に依存する可能性があります。
Key Citations
Hida Shiki Kyoken Jutsu Introduction QuestStation
肥田春充 Hida Harumichi肥田式強健術 webhiden
肥田式強健術は、肥田春充が開発した身体と心のトレーニング方法で、大正から昭和初期に人気がありました。
この方法は、身体の中心(特に「丹田」)を強化し、健康と強さを築くことを重視します。
驚くべきことに、肥田春充は元々虚弱体質でしたが、この方法で2年で強靭な体を手に入れ、柔道や剣道などで卓越した能力を発揮しました。
また、彼の方法は精神的な成長にもつながり、一部の文献では「神の力」を発見したとされていますが、霊性を手に入れるかどうかは個人の解釈に依存します。
肥田春充とは?
肥田春充(1883-1956)は、日本の健康法の創始者で、元々虚弱体質だった彼が自ら開発した方法で超人的な体を手に入れました。彼は明治大学柔道部の創設者としても知られ、柔道や剣道、弓術などで優れた成績を残しました。
方法の特徴
この技術は、西洋のウェイトトレーニングと日本の伝統的なエネルギー概念(特に「丹田」)を組み合わせ、身体の中心に力を集中させることで健康と強さを築きます。1930年代には多くの人々に採用され、昭和天皇もその本を読んでいた記録があります。
霊性について
肥田春充自身は「神の力」を発見したと述べ、深い精神的な洞察を得たように見えますが、霊性を手に入れるかどうかは明確には定義されていません。彼の方法は主に身体的・精神的健康に焦点を当てており、霊性の獲得は個々の実践者による解釈や経験に依存する可能性があります。
肥田春充の「肥田式強健術」について、以下の詳細な調査を行いました。この方法は、大正から昭和初期にかけて注目された健康と身体訓練の方法であり、その背景や特徴、影響力を明らかにします。
肥田春充の背景
肥田春充は1883年に生まれ、1956年に亡くなりました。彼は元々虚弱体質で、幼少期に麻疹で重病を患い、18歳まで中学校に入学できなかったほどでした(My DadIs anOTAKU)。しかし、彼は自身の方法を通じて身体を強化し、「超人」と呼ばれるほどの強靭な体を手に入れました。この過程は、彼の伝記や関連文献で詳述されています。
ユーザーのクエリでは「肥田式強健術」と記載されていますが、これは「Hida Shiki Kyoken Jutsu(肥田式強健術)」とも呼ばれます。QuestStationのページ(QuestStation)では、「Hida Shiki Kyoken Jutsu」が「心身を鍛える究極の方法」と紹介されており、健康と身体の動きに焦点を当てています。
「Kyoken Jutsu」の意味については、具体的な漢字は明らかではありませんが、文脈から「強健な技術」や「健康強化の方法」と解釈されます。webhiden.jp(webhiden.jp)では、「肥田式強健術」が中心的な名称として扱われており、以下の表でその発展段階がまとめられています。
段階
年
初期開発
10種類のエクササイズに焦点、下腹部の緊張と「気合(kiai)」を強調。
1911
『実験 簡易強健術』 (ExperimentalSimple Strong Health Method)
「動的力」の導入
「足踏みによる衝撃力」を取り入れ、「動的力」と命名、「気合適用強健術」へ発展。
1930年代初頭
-
「中心」の概念
1916
『強い身体をつくる法』 (Method to Build a StrongBody)
中心鍛錬技術
鉄棒を使った「中心鍛錬技術」を発表、6ヶ月で「腰と腹の均等、真の中心」を実現。
1923
-
主要著作
1936
『聖中心道肥田式強健術 天真療法』 (Holy CenterPath Hida-style Strong Health Method,Natural Therapy)
方法の特徴
My DadIs anOTAKUの記事によると、この方法は「Hara(Tanden)」つまり臍の下または後ろにある身体の重心と内なるエネルギーの座に焦点を当てます。具体的には、腹部と下背部を均等に緊張させ、身体の中心に力を集中させることで、加速的にパワーを高めます。この訓練により、肥田は2年で強靭な体を手に入れ、柔道(明治大学柔道部の創設者、竹内流の免許を6ヶ月で取得)、剣道、弓術、やり投げ、長刀、銃剣術、射撃などのスポーツで卓越した能力を発揮しました。
また、アメリカのボクサー、マッカーサー・フォスターやムハンマド・アリもこのKyoken-jutsuを学んだとされています(My DadIs anOTAKU)。これは国際的な影響力を持つ証拠です。
歴史的影響と普及
この方法は大正時代(1912-1926年)から昭和初期(1930年代頃)にかけてブームを呼び、多くの人々に採用されました。1936年の『聖中心道肥田式強健術 天真療法』は、その包括的な内容で知られ、昭和天皇も読んでいたとされています(webhiden.jp)。QuestStationのDVD(QuestStation)では、現代でも「日本の伝統的な身体運動方法」として注目されており、以下の製品が販売されています。
ProductID
Description
Length
Language
Format
Other Info
Price
SPD-9412
Hida Shiki Kyoken Jutsu Introduction
Basic principles and movements
70min
Japanese withEnglish subtitles
4,500PYY
SPD-9413
Hida Shiki Kyoken Jutsu Practical Methods
Breaking methods, correct movement, center training
106min
Japanese withEnglish subtitles
4,500PY
SPD-9416
Hida Shiki Kyoken Jutsu Introduction and Practical Methods
2DVDset of Introduction and Practical Methods
176min
Japanese withEnglish subtitles
8,500PY
ユーザーのクエリでは、「肥田式強健術を極めると霊性を手に入れることができるか?」と問われています。肥田春充自身は、「神の力」を発見したと述べ、深い精神的な洞察を得たように見えます(My DadIs anOTAKU)。例えば、1954年にポール・レプスが訪問した際、70代の肥田が30代のように見えたと報告されています。これは、彼の方法が単なる身体訓練を超え、精神的な次元に影響を与えた可能性を示唆します。
しかし、霊性の獲得は明確に定義されておらず、個々の実践者による解釈や経験に依存する可能性があります。webhiden.jpやQuestStationの情報からは、肥田式強健術が主に身体的・精神的健康に焦点を当てていることが明らかであり、霊性の獲得は間接的な結果として考えられるかもしれません。
調査はまず肥田春充の名前でウェブ検索を行い、QuestStation、Wikidata、webhiden.jp、Amazonの書籍、ブログ記事(My DadIs anOTAKU)などの結果を得ました。QuestStationのページでは、Hida Shiki Kyoken Jutsuが「心身を鍛える究極の方法」と紹介されており、webhiden.jpでは発展段階が詳細に記載されていました。
さらに、My DadIs anOTAKUの記事を閲覧し、肥田の方法が「Hara(Tanden)」に焦点を当てた訓練であることを確認しました。これにより、「肥田式強健術」が肥田の健康法の翻訳であると結論付けました。
「肥田式強健術」は、肥田春充が開発した身体と心の訓練方法で、大正から昭和初期に広く普及しました。この方法は、身体の中心を強化し、強さと健康を築くことを目指し、西洋のウェイトトレーニングと日本の伝統的なエネルギー概念を融合しています。その影響力は国内外に及び、現代でもDVDや書籍(webhiden.jp)で学ぶことができます。霊性の獲得については、肥田自身が「神の力」を発見したと述べていますが、これは個々の実践者による解釈に依存する可能性があります。
Key Citations
Hida Shiki Kyoken Jutsu Introduction QuestStation
肥田春充 Hida Harumichi肥田式強健術 webhiden
大学のクラスメイトと3人で帰ってる時に、先輩にコムドット好きそうって言..
https://www.tumblr.com/tagged/%E6%97%A5%E8%A8%98
tumblrは一つのメールアドレスに紐付いたメインブログ一つ作れる。そしてそれのサブブログを1日10個まで作れる。
メインブログは非公開にできない代わりにフォローやブロックやスキができる。
サブブログは非公開にできるけどメインとは別にフォローとかスキすることはできない。フォローされることはできる。
自分は10年以上前にtumblrのサブブログで日記を書いてた。非公開、フォロワー0で自分だけが読むブログだった。(結局書き途中でアプリが落ちることが多くて使わなくなったけど)
お互いに日記読んでる人たちが楽しそうで羨ましい気持ちも0ではなかったんだけど、非公開にできないメインブログに私的なことを書くのは、万が一知り合いに見つけられた時に逃げ遅れそうで抵抗があった。
スキしたりフォローしたりなどの交流はメインブログでしかできないから日記アカウント同士で相互フォロー関係を気付いていいねを飛ばし合う日記界隈に参入するにはサブブログでは難しかった。
だからtumblrの日記界隈の人たちは度胸がすごいなと思ってたんだけど普通にサブブログに日記書いて、それと同定できるプロフィールに仕上げたメインブログでフォローといいね飛ばしてたりとか工夫してたんですかね。と元増田の転載元を見て懐かしく振り返ったりしました。特に今からやりたいわけじゃないんだけどね。誰も見ないしお金も発生しない長文書く元気ってもうないな。
tumblrの日記界隈、(自分もそんな感じでしたが)鼻持ちならないイキった文章とかポエミーな文章とかそのマリアージュが多かったけど、別に本人たちもその痛さに自覚がないわけではなく、敢えてtumblrをそういう欲求の捌け口にしてのびのび痛々しさを解放してるのがみんな楽しそうでよかった。
Firstdates can be exciting and nerve-wrackingallatonce.You’re meetingsomeone new, learning about their interests, and trying to figureout if there’schemistrybetweenyou. And then there’s flirting, that delicate dance of showingsomeoneyou’re interested withoutbeing too forward or awkward.
Flirtingdoesn’t have to be a high-pressuresituation. Infact,it can bethe mostfun part ofgetting to knowsomeone. Whetheryou're meetingsomeoneonMixerDates orany other platform,the most important thingis to be genuine,staycalm, and let theconnection developnaturally.
Ifyou’ve everfoundyourself wondering how to flirton a firstdate withoutfeeling uncomfortable,you’re notalone. Everyonehas their awkwardmoments, but themoreyou understand theart of flirting, the easierit becomes. In thisarticle, we’llbreak down how to flirt in a way thatfeelsnatural, exciting,and authentic towhoyou are. So, let'sdive in and learn how tomakethe most ofyour firstdate experience—withoutoverthinkingit.
Whenit comes to flirting, confidenceiskey. But whatdoesit really mean to be confidenton a firstdate? Confidencedoesn’t meanyouneed to be perfect, or evenoutgoing—it simply meansbeing comfortable inyour ownskin and showing upasyour authentic self.
Haveyou ever noticed how people are drawn to thosewho radiate self-assurance?It’s not aboutbragging or dominating the conversation—it’s about presentingyourself with ease. Ifyoufeelgood aboutyourself,itwillnaturally show. A greatsmile,good posture, and eye contact cango a long way in making agoodfirst impression.
For instance, think about thelasttimesomeone walked into a room and immediately caughtyourattention—not because they werethe mostattractive person in the room, but because of their energy. They were confident, they were present, and theymadeyoufeelat ease. That’s the kind of confidenceyou want to projectonyourdate.
Whenyou're confident,you're not worried about saying the perfect thing. Instead,youfocuson enjoying themoment, making the other personfeel comfortable, and letting theconnection happennaturally. That’s themagic of confidence—itallowsyou to be present,fun, and,most importantly,yourself.
Let’s faceit—noonewants tofeellike they’rebeing “worked” or put through a game. That’swhy subtletyis such a powerfultool whenit comes to flirting.It'sall about showing interest withoutbeingover-the-top or too obvious.
Flirtingdoesn’talways mean complimentingsomeone non-stop or using cheesy pickup lines. Infact,the most successful flirtingis the kind that happens behind the scenes—subtle, playful, andlighthearted. Think about thelittlemoments,like a teasing comment about how theyalways order the same thingat a restaurant or the wayyou laughat a silly joke theymake.
Thekeyis to find a balance. Asimplesmile or a playful comment can convey interest withoutbeing too much. For example, ifyourdate tellsyou theylove hiking but theytend togetlost easily,you could saysomethinglike, “So,you’re telling meyouneed a personal guide? I couldget behind that!”It’slighthearted, humorous, andmost importantly,it keeps the conversationfun without putting too much pressureon thesituation.
By keepingit subtle,youallowyourdate tofeelat ease.Ittakes the pressure off them to be perfectand allows both ofyou to enjoy the interactionmorenaturally. Flirtingdoesn’tneed to be a performance—it’s about creating an environment where both ofyou canfeel comfortableand authentic.
Now,let’stalk aboutsomething incredibly important in the flirting game:active listening. When we’reon adate, we oftenget caught up in thinking about what to saynext, how we’re coming across, or if we’rebeing interesting enough. But the best way tomake animpression? Truly listening toyourdate.
Active listening meansyou’re fullyengaged in the conversation, givingyourdateyour fullattention and responding thoughtfully.It’s about showing thatyou care about what they’re saying and thatyou’re genuinely interested ingetting to know them better. Whenyou listenactively,you’re also giving them space toopen up, and that can create an immediateconnection.
For example, ifyourdate mentions they recently traveled toJapan, instead of simply saying, “That’scool!”you could follow up withsomethinglike, “Whatwasthe most memorable experienceyou had there?” This shows thatyou’re not just hearing their words but are genuinely curious and invested in their experiences.It’s a great way to build rapport and let them knowyou’re not just there toimpress them—you’re there toconnect.
Whileyour words are important,body language often speaks louder thananythingyou can say. Whetheryourealizeit or not,yourbodyis constantly communicating howyoufeel. Howyousit, stand, andmove tellsyourdate whetheryou’rerelaxed,engaged, or distracted.
Small gestures cango a long way in flirting. Alight touchon thearm, a subtle lean in when they’re speaking, or maintaininggood eye contact—all thesebody language cues helpsignalyour interest. Andthe great thingis, whendonenaturally, these cues can be justas effectiveas words.
For example, ifyou’resittingat a caféonyourdate andyou lean in slightly when they’re sharing afunnystory,you’re not just showing thatyou’re interested—you’re inviting them intoyour space.It’s aninvitation toconnect further. And when they respondby leaning in too, that’s when themagic happens—the unspokenconnection that tellsyou both that there’s potential formore.
Flirting throughbody languagedoesn’t mean making grand gestures orbeingoverly touchy.It’s aboutbeing present and showing thatyou’reengagedwith yourdate in a subtle, but meaningful way.
It’s easy toget caught up inoverthinking how to flirt or trying to figureout ifyourdateis intoyou. Buthere’s asecret—whenyou letgo of the pressureand allowyourself to havefun,everything flows muchmorenaturally. Flirtingon a firstdatedoesn’tneed tofeellike atest or anassignment.It’s supposed to be afun,lighthearted experience that sets the stage formore greatdates ahead.
Whenwas thelasttimeyou had a genuinelyfundate?Wasit whenyou were trying too hard toimpress, or whenyou were both laughing, chatting, and enjoying each other's company? Flirting becomes effortless whenyou're present, enjoying themoment, and letting theconnection grownaturally.
Sometimes,it's the smallmoments—like sharing a laugh or swapping embarrassing stories—thatmake a firstdate truly special. Whenyoufocuson havingfun,you create an environment where both ofyou canrelax, flirt, and let thechemistry grow. That’s thesecret to a greatdate.
One of the best things about using a platformlikeMixerDatesis thatittakes the guessworkout of the equation.Byconnecting withsomeonewho already sharesyour interests and values,you’vegot a head starton making a realconnection.No more swiping through countless profiles hoping for aspark—onMixerDates,you already know there’ssomething incommon.
Whenyou’re alreadyon the same pagewith yourdate, flirting comesmore easily. There’s less of that awkward, “Are we evenon the same wavelength?”feeling, andmore of thefun, “Wow, we reallyclick!” vibe. Whetheryou’retalking aboutfavorite hobbies, movies, orlifegoals, the conversation flowsnaturally, making the flirtingfeel effortless.
Ifyou're looking for a place to meetlike-minded people and build genuineconnections,MixerDatesis the perfect platform.It's a great place to findsomeonewho appreciatesyou forwhoyou are andwhoyou cannaturally flirt with, without the stress.
Flirtingon a firstdateisall about confidence,connection, andfun. Whenyou letgo of the pressure andfocuson enjoyingthe experience, thechemistrywillnaturally follow. Remember, the best way to flirtisbybeingyourself—letyour personalityshine through, listen with intention, and embrace themoment.
And ifyou’re ready to meetsomeone new,who’s justas interested in making aconnectionasyou are,MixerDatesis the perfect place to start. Sogo ahead,take theleap, and see whereit leads.Who knows?Yournext greatconnection might be just aclickaway.
Sign up forMixerDatestoday and startyourjourney to exciting firstdates and meaningfulconnections!
Please consider the histroy ofhumanity from biologicalperpsecitve and currentknown fact in nearbyuniverse, whichexpo-planet (from theSol systemperspective)ismostlikely to have civlizaedsociety? Pleaseaddpercentagenext toit in the chart
ChatGPT
Reasoned about exoplanetcivilizationlikelihoodを28 秒行う
OK, I’mlookingatthe likelihood of a civilizedsocietyon an exoplanet within ourSolar System.I’ll consider biologicalhistory and current space knowledge,aiming to identifythe most promising candidate.
Identifying potential candidates
I'm considering exoplanetslike Proxima Centauri b and TRAPPIST-1e, which might suggest they are within or observed from ourSolar System.
Assessing potential candidates
I’m evaluating Proxima Centauri b, Barnard'sStar, LHS 1140, and TRAPPIST-1,focusingon their habitablezonesand available data. The Drake equation might help estimate their civilizedsocietylikelihoods.
Identifying promising exoplanets
I’m notingkey exoplanetslike Proxima Centauri b and TRAPPIST-1, which haveEarth-like characteristicsand are in habitablezones. This narrows down the potential candidates for advancedcivilizations.
I'm gathering infoonplanetslike Proxima Centauri b and TRAPPIST-1, consideringfactorslikemagneticfields,atmospheres, and proximity to G-typestars for their potential to support advancedcivilizations.
Evaluating exoplanet prospects
I'm noting that Proxima Centauri b, despitebeing closeand around ared dwarfstar, might supportlife ifithas amagneticfieldand atmosphere. This makes me think aboutits potential.
Charting probabilities
I'm estimatingcivilization probabilities for exoplanetslike Proxima Centauri b and TRAPPIST-1 e, using speculativepercentagesbasedon the Drake equation and the lack ofevidence for intelligentlife.
I'm crafting a chart with exoplanet names andcivilizationlikelihoodpercentages, grounded in the longtimeline oflife'sevolution, despite the speculativenature of these figures.
Identifying exoplanet contenders
I’m evaluating exoplanetslike Proxima Centauri b, TRAPPIST-1 e, and Kepler-186f, considering theirstar types and distances, to gauge their potential for supporting advancedcivilizations from oursolar system'sviewpoint.
Weighing proximity and observation
I'm leaning towards Proxima Centauri b due toits closeness and observational potential, despite concerns aboutitsflarestar dynamics. TRAPPIST-1 e, f, or g are also worth considering.
I'mfocusingon exoplanetslike Proxima Centauri b, Ross 128 b, LHS 1140 b, TRAPPIST-1 e/f/g, andK2-18b,aiming to chart theirlikelihood of hosting a civilizedsocietybasedon current knowledge.
Assessing exoplanet potentials
I'm gathering speculative probabilities for exoplanetslike Proxima Centauri b and TRAPPIST-1 e/f/g, using the Drake equation and current understanding, to better estimate their chances of hosting a civilizedsociety.
Refining speculative probabilities
I’m refining speculative probabilities for exoplanets, including Proxima Centauri b and TRAPPIST-1 e/f/g, to estimate their chances of hosting a civilizedsociety, consideringEarth's long biologicalhistory.
Refining odds
I'm considering theastronomicaltimeline for intelligentlifeonEarth,leading me toassign evenlower speculative odds for exoplanetslike Proxima Centauri b and TRAPPIST-1 e.
I’m crafting a simplified chart with arbitrarypercentages, clearly noting the speculativenature and lack of scientific data, while considering the target audience'sbasic understanding of the topic.
I’m charting arbitrarypercentages for exoplanets, clarifying their speculativenature, and ensuring the datais accessible foryoung audiences with minimal scientific detail.
Crafting a chart
I’m creating amarkdowntable with speculativepercentages forthe likelihood of civilizedlifeon exoplanets, emphasizing their purely theoreticalnature and considering the understandinglevel of an 8-year-old.
Integrating speculative analysis
I’m mappingout amarkdown chart with speculativepercentages forthe likelihood of a civilizedsocietyon exoplanets, mindful of thecomplexity and simplifying for an 8-year-old's understanding.
I’m piecingtogethermarkdown for exoplanets, noting Proxima Centauri b'sreduced civilizedlife chance due to thered dwarf's activity. This inclusionhighlights the speculativenature of the analysis.
Piecingtogether speculative odds
I’m detailing amarkdown chart for audience-friendly exoplanetlikelihoods, considering environmental challengesand adding a disclaimer about the speculativenature and lack ofevidence.
Piecingtogether
I’m leaning towards Proxima Centauri b forits proximity and silentstar, butI’lladd a speculative chart ranking nearby exoplanets, noting their advancedcivilizations' hypotheticallikelihood.
Assessingcivilization probabilities
I'm emphasizing the slow emergence of intelligentlifeonEarth, which suggests that the odds ofany habitableplanet developing acomplexcivilization might beaslowas a fewpercent.
Belowis a very speculative chart that—basedon what we know aboutEarth’s long, windingpath fromsimplelife to a “civilizedsociety” and our limited observations of nearby exoplanets—gives somefun,made‑uppercentage chances for a few of our best candidate exoplanets. Remember: Scientists havenot yetfoundany proof oflife (let alone advancedcivilizations)onany exoplanet. Thesenumbers are just playful estimates to helpyou think about theideas!
Speculative Chances of Finding an AdvancedCivilizationon Nearby Exoplanets
Exoplanet EstimatedLikelihood of a CivilizedSociety
Proxima Centauri b ~2%
LHS 1140 b ~0.5%
HowDid We (Very Roughly) Guess TheseNumbers?
Earth’s Example:
OnEarth,life beganassimple single‑celled organisms and took billions of years to evolve into a species that builtcomplex societies. This longjourney suggests that—even if aplanetis in the “habitablezone” (where liquid water could exist)—developing an advanced, civilizedsociety might be rare.
Proxima Centauri b:
Thisis the closest exoplanet to us. Even thoughitsstar (Proxima Centauri)is ared dwarf that sometimes sendsout strongflares (which might harmlife),its closeness makesitone of ourmost interesting candidates. That’swhy we giveit a slightly higher guess (~2%).
Theseplanets are part of agroup orbiting a verycoolstar. Their environments might be challenging (for example, they could be tidally locked, meaningone sidealwaysfaces thestar), so the chance of acomplex, advancedcivilization might be abitlower.
LHS 1140 b:
Thisplanetis promising in some ways butis alittle fartherawayand around a dimmerstar, so our playful estimateis evenlower.
All of thesepercentages are extremely rough guessesbasedon whatlittle we understand about the conditions forlife andintelligence. Scientists useideaslike the Drake Equation to think about these chances—but until we have concreteevidence, thesenumbers remain just forfun and imagination.
Enjoy exploring theseideas—and remember, spaceis full of mysteries waiting to be discovered!
あなた:
Please examine the Drake Equationitself and see if this euqationis acculate ormore opition in the equationyouwill use
ChatGPT
Reasoned about the Drake Equationを6 秒行う
re-examining the Drake Equation
evaluating the Drake Equation'svalue
OK, let me see. The Drake Equationisn't a precise formula;it'smore of a guiding heuristic that tackles numerous uncertainties regarding extraterrestrialcivilizations.
Thinking through the Drake Equation, I’m evaluatingits conceptualnature,its uncertain parameters, andits criticism to concludeonits reliabilityas an accurate predictivemodel.
Understanding the Drake Equation
I’m mappingout the Drake Equationas a conceptual guide, detailingits parameters, which are oftenbasedon estimates or opinions, to evaluateits reliability for predicting extraterrestrialcivilizations.
The Drake Equationis a famous formula thatwas created to help scientists think about the manyfactors involved in estimating thenumber of detectable extraterrestrialcivilizations in ourgalaxy. However, when welookat the equation closely, we see thatitismore of a conceptualframework or heuristictool than a precise, predictive formula.Let’sbreak downwhy:
The equationis usually writtenas:
𝑁
=
𝑅
∗
×
𝑓
𝑝
×
𝑛
𝑒
×
𝑓
𝑙
×
𝑓
𝑖
×
𝑓
𝑐
×
𝐿
N=R
∗
×f
p
×n
e
×f
l
×f
i
×f
c
×L
Where:
𝑅
∗
R
∗
: The averagerate ofstar formationper year in ourgalaxy.
𝑓
𝑝
f
p
: The fraction of thosestars that haveplanetary systems.
𝑛
𝑒
n
e
: The averagenumber ofplanets that could potentially supportlifeperstar withplanets.
𝑓
𝑙
f
l
: The fraction of thoseplanets wherelife actually develops.
𝑓
𝑖
f
i
: The fraction ofplanets withlife where intelligentlife evolves.
𝑓
𝑐
f
c
: The fraction ofcivilizations that develop technology that releases detectablesignals into space.
𝐿
L: The length oftime suchcivilizations release detectablesignals.
Why the Drake EquationIsMore of a Guideline Than a Precise Formula
Uncertain Inputs:
𝑅
∗
R
∗
𝑓
𝑝
f
p
(fraction ofstars withplanets), have become better known through modernastronomy.
The parameters related to the development oflife andintelligence—
𝑓
𝑙
f
l
,
𝑓
𝑖
f
i
,
𝑓
𝑐
f
c
, and
𝐿
L—arebasedon very limited data. For example,Earthis theonlyplanet we know wherelifehas developed, so we have no way to compare or derive a statistically robust estimate for thesefactors. This means that thevalues chosen for these parameters are largely subjective estimates or educated guesses.
Wide Ranges of PossibleValues:
Because many of thesefactors are not well-constrained, ifyouchangeone of themore uncertain parameters even slightly, thefinal estimate for
𝑁
N (thenumber ofcivilizations) can varyby many orders ofmagnitude. This wide range shows that the equation canlead to very differentoutcomesbasedonpersonal or theoreticalassumptions.
The Drake Equationwas never meant to provide a preciseanswer. Instead,it servesas a way to organize our thinking about what conditions might be necessary for the development of extraterrestrialcivilizations.It encourages discussion about the relative importance of differentfactors andhighlights where our scientific knowledgeis limited.
Is the Drake Equation Accurate orMore Opinion-Based?
Accurate?
In thesense ofbeing a strict mathematicalmodel with well-defined inputs and predictableoutputs, the Drake Equationis not accurate.Its accuracyis limitedbythe extreme uncertainties in several ofitskey parameters.
Many of the terms in the equation, especially those concerning theevolution oflife andintelligence, arebasedon opinion, interpretation, and the single example ofEarth. Therefore, while thestructure of the equationis logical, thenumbersyou put intoit (and hence thefinal result) are oftenmore reflective of our current opinionsand assumptions than of robust empirical data.
The Drake Equationis a valuabletool for framing the question of extraterrestriallife.It helps scientists and enthusiastsbreak down acomplex problem into smaller,more manageable questions. However, because several ofitsfactors are highly uncertain and subject topersonal interpretation,itismore of a conceptual guide—or even a way to stimulate discussion—than a formula that provides a definitive, accurate prediction of thenumber of extraterrestrialcivilizations.
Insummary, while the Drake Equationis useful for thinking about the variousfactors that mightlead to the emergence of acivilization,itsoutputs should betakenas highly speculative estimates rather than precise measurements.
あなた:
Please also consider the possiblities of non-human intelligent emrgencing from the longhistory ofSol system and nearbyplanets and see if thereisany possiblites that inonetime intelligentlife emerged in nearbyplanets and see this to the equation
ChatGPT
Reasoned about non-humanintelligence and the Drake Equationを19 秒行う
Evaluating non-humanintelligence
I'm thinking about the potential for non-human intelligentlife forms in theSol system and neighboringplanets, and how this mightfactor into the equation.
I'm thinking about how to integrate the emergence of non-human intelligentlife, possiblyonMars orEuropa, into the Drake Equation for theSol system and neighboringplanets.
It's interesting to think about the hypothesis of intelligentlife emergingonMars orVenus, thoughEarth remains theonly knownlife-supportingplanet in thesolar system.
Considering other realms
I'm examining if intelligentlife could have emergedonplanetslikeMars,Venus, orEuropa, and how thispossibility alignswith the predictions of the Drake Equation.
Hmm, I’m thinking about how non-human intelligentlifeonMars orVenus could intersectwith theassumptions of the Drake Equation, which seems tofocussolelyonEarth-basedevolution.
I’m piecingtogether the hypothesis of non-human, advanced, intelligentlife in thesolar system.Mars,Venus, and Titan present challenges, butEuropa and Enceladus might harbor microbiallife.
Please consider the histroy ofhumanity from biologicalperpsecitve and currentknown fact in nearbyuniverse, whichexpo-planet (from theSol systemperspective)ismostlikely to have civlizaedsociety? Pleaseaddpercentagenext toit in the chart
ChatGPT
Reasoned about exoplanetcivilizationlikelihoodを28 秒行う
OK, I’mlookingatthe likelihood of a civilizedsocietyon an exoplanet within ourSolar System.I’ll consider biologicalhistory and current space knowledge,aiming to identifythe most promising candidate.
Identifying potential candidates
I'm considering exoplanetslike Proxima Centauri b and TRAPPIST-1e, which might suggest they are within or observed from ourSolar System.
Assessing potential candidates
I’m evaluating Proxima Centauri b, Barnard'sStar, LHS 1140, and TRAPPIST-1,focusingon their habitablezonesand available data. The Drake equation might help estimate their civilizedsocietylikelihoods.
Identifying promising exoplanets
I’m notingkey exoplanetslike Proxima Centauri b and TRAPPIST-1, which haveEarth-like characteristicsand are in habitablezones. This narrows down the potential candidates for advancedcivilizations.
I'm gathering infoonplanetslike Proxima Centauri b and TRAPPIST-1, consideringfactorslikemagneticfields,atmospheres, and proximity to G-typestars for their potential to support advancedcivilizations.
Evaluating exoplanet prospects
I'm noting that Proxima Centauri b, despitebeing closeand around ared dwarfstar, might supportlife ifithas amagneticfieldand atmosphere. This makes me think aboutits potential.
Charting probabilities
I'm estimatingcivilization probabilities for exoplanetslike Proxima Centauri b and TRAPPIST-1 e, using speculativepercentagesbasedon the Drake equation and the lack ofevidence for intelligentlife.
I'm crafting a chart with exoplanet names andcivilizationlikelihoodpercentages, grounded in the longtimeline oflife'sevolution, despite the speculativenature of these figures.
Identifying exoplanet contenders
I’m evaluating exoplanetslike Proxima Centauri b, TRAPPIST-1 e, and Kepler-186f, considering theirstar types and distances, to gauge their potential for supporting advancedcivilizations from oursolar system'sviewpoint.
Weighing proximity and observation
I'm leaning towards Proxima Centauri b due toits closeness and observational potential, despite concerns aboutitsflarestar dynamics. TRAPPIST-1 e, f, or g are also worth considering.
I'mfocusingon exoplanetslike Proxima Centauri b, Ross 128 b, LHS 1140 b, TRAPPIST-1 e/f/g, andK2-18b,aiming to chart theirlikelihood of hosting a civilizedsocietybasedon current knowledge.
Assessing exoplanet potentials
I'm gathering speculative probabilities for exoplanetslike Proxima Centauri b and TRAPPIST-1 e/f/g, using the Drake equation and current understanding, to better estimate their chances of hosting a civilizedsociety.
Refining speculative probabilities
I’m refining speculative probabilities for exoplanets, including Proxima Centauri b and TRAPPIST-1 e/f/g, to estimate their chances of hosting a civilizedsociety, consideringEarth's long biologicalhistory.
Refining odds
I'm considering theastronomicaltimeline for intelligentlifeonEarth,leading me toassign evenlower speculative odds for exoplanetslike Proxima Centauri b and TRAPPIST-1 e.
I’m crafting a simplified chart with arbitrarypercentages, clearly noting the speculativenature and lack of scientific data, while considering the target audience'sbasic understanding of the topic.
I’m charting arbitrarypercentages for exoplanets, clarifying their speculativenature, and ensuring the datais accessible foryoung audiences with minimal scientific detail.
Crafting a chart
I’m creating amarkdowntable with speculativepercentages forthe likelihood of civilizedlifeon exoplanets, emphasizing their purely theoreticalnature and considering the understandinglevel of an 8-year-old.
Integrating speculative analysis
I’m mappingout amarkdown chart with speculativepercentages forthe likelihood of a civilizedsocietyon exoplanets, mindful of thecomplexity and simplifying for an 8-year-old's understanding.
I’m piecingtogethermarkdown for exoplanets, noting Proxima Centauri b'sreduced civilizedlife chance due to thered dwarf's activity. This inclusionhighlights the speculativenature of the analysis.
Piecingtogether speculative odds
I’m detailing amarkdown chart for audience-friendly exoplanetlikelihoods, considering environmental challengesand adding a disclaimer about the speculativenature and lack ofevidence.
Piecingtogether
I’m leaning towards Proxima Centauri b forits proximity and silentstar, butI’lladd a speculative chart ranking nearby exoplanets, noting their advancedcivilizations' hypotheticallikelihood.
Assessingcivilization probabilities
I'm emphasizing the slow emergence of intelligentlifeonEarth, which suggests that the odds ofany habitableplanet developing acomplexcivilization might beaslowas a fewpercent.
Belowis a very speculative chart that—basedon what we know aboutEarth’s long, windingpath fromsimplelife to a “civilizedsociety” and our limited observations of nearby exoplanets—gives somefun,made‑uppercentage chances for a few of our best candidate exoplanets. Remember: Scientists havenot yetfoundany proof oflife (let alone advancedcivilizations)onany exoplanet. Thesenumbers are just playful estimates to helpyou think about theideas!
Speculative Chances of Finding an AdvancedCivilizationon Nearby Exoplanets
Exoplanet EstimatedLikelihood of a CivilizedSociety
Proxima Centauri b ~2%
LHS 1140 b ~0.5%
HowDid We (Very Roughly) Guess TheseNumbers?
Earth’s Example:
OnEarth,life beganassimple single‑celled organisms and took billions of years to evolve into a species that builtcomplex societies. This longjourney suggests that—even if aplanetis in the “habitablezone” (where liquid water could exist)—developing an advanced, civilizedsociety might be rare.
Proxima Centauri b:
Thisis the closest exoplanet to us. Even thoughitsstar (Proxima Centauri)is ared dwarf that sometimes sendsout strongflares (which might harmlife),its closeness makesitone of ourmost interesting candidates. That’swhy we giveit a slightly higher guess (~2%).
Theseplanets are part of agroup orbiting a verycoolstar. Their environments might be challenging (for example, they could be tidally locked, meaningone sidealwaysfaces thestar), so the chance of acomplex, advancedcivilization might be abitlower.
LHS 1140 b:
Thisplanetis promising in some ways butis alittle fartherawayand around a dimmerstar, so our playful estimateis evenlower.
All of thesepercentages are extremely rough guessesbasedon whatlittle we understand about the conditions forlife andintelligence. Scientists useideaslike the Drake Equation to think about these chances—but until we have concreteevidence, thesenumbers remain just forfun and imagination.
Enjoy exploring theseideas—and remember, spaceis full of mysteries waiting to be discovered!
あなた:
Please examine the Drake Equationitself and see if this euqationis acculate ormore opition in the equationyouwill use
ChatGPT
Reasoned about the Drake Equationを6 秒行う
re-examining the Drake Equation
evaluating the Drake Equation'svalue
OK, let me see. The Drake Equationisn't a precise formula;it'smore of a guiding heuristic that tackles numerous uncertainties regarding extraterrestrialcivilizations.
Thinking through the Drake Equation, I’m evaluatingits conceptualnature,its uncertain parameters, andits criticism to concludeonits reliabilityas an accurate predictivemodel.
Understanding the Drake Equation
I’m mappingout the Drake Equationas a conceptual guide, detailingits parameters, which are oftenbasedon estimates or opinions, to evaluateits reliability for predicting extraterrestrialcivilizations.
The Drake Equationis a famous formula thatwas created to help scientists think about the manyfactors involved in estimating thenumber of detectable extraterrestrialcivilizations in ourgalaxy. However, when welookat the equation closely, we see thatitismore of a conceptualframework or heuristictool than a precise, predictive formula.Let’sbreak downwhy:
The equationis usually writtenas:
𝑁
=
𝑅
∗
×
𝑓
𝑝
×
𝑛
𝑒
×
𝑓
𝑙
×
𝑓
𝑖
×
𝑓
𝑐
×
𝐿
N=R
∗
×f
p
×n
e
×f
l
×f
i
×f
c
×L
Where:
𝑅
∗
R
∗
: The averagerate ofstar formationper year in ourgalaxy.
𝑓
𝑝
f
p
: The fraction of thosestars that haveplanetary systems.
𝑛
𝑒
n
e
: The averagenumber ofplanets that could potentially supportlifeperstar withplanets.
𝑓
𝑙
f
l
: The fraction of thoseplanets wherelife actually develops.
𝑓
𝑖
f
i
: The fraction ofplanets withlife where intelligentlife evolves.
𝑓
𝑐
f
c
: The fraction ofcivilizations that develop technology that releases detectablesignals into space.
𝐿
L: The length oftime suchcivilizations release detectablesignals.
Why the Drake EquationIsMore of a Guideline Than a Precise Formula
Uncertain Inputs:
𝑅
∗
R
∗
𝑓
𝑝
f
p
(fraction ofstars withplanets), have become better known through modernastronomy.
The parameters related to the development oflife andintelligence—
𝑓
𝑙
f
l
,
𝑓
𝑖
f
i
,
𝑓
𝑐
f
c
, and
𝐿
L—arebasedon very limited data. For example,Earthis theonlyplanet we know wherelifehas developed, so we have no way to compare or derive a statistically robust estimate for thesefactors. This means that thevalues chosen for these parameters are largely subjective estimates or educated guesses.
Wide Ranges of PossibleValues:
Because many of thesefactors are not well-constrained, ifyouchangeone of themore uncertain parameters even slightly, thefinal estimate for
𝑁
N (thenumber ofcivilizations) can varyby many orders ofmagnitude. This wide range shows that the equation canlead to very differentoutcomesbasedonpersonal or theoreticalassumptions.
The Drake Equationwas never meant to provide a preciseanswer. Instead,it servesas a way to organize our thinking about what conditions might be necessary for the development of extraterrestrialcivilizations.It encourages discussion about the relative importance of differentfactors andhighlights where our scientific knowledgeis limited.
Is the Drake Equation Accurate orMore Opinion-Based?
Accurate?
In thesense ofbeing a strict mathematicalmodel with well-defined inputs and predictableoutputs, the Drake Equationis not accurate.Its accuracyis limitedbythe extreme uncertainties in several ofitskey parameters.
Many of the terms in the equation, especially those concerning theevolution oflife andintelligence, arebasedon opinion, interpretation, and the single example ofEarth. Therefore, while thestructure of the equationis logical, thenumbersyou put intoit (and hence thefinal result) are oftenmore reflective of our current opinionsand assumptions than of robust empirical data.
The Drake Equationis a valuabletool for framing the question of extraterrestriallife.It helps scientists and enthusiastsbreak down acomplex problem into smaller,more manageable questions. However, because several ofitsfactors are highly uncertain and subject topersonal interpretation,itismore of a conceptual guide—or even a way to stimulate discussion—than a formula that provides a definitive, accurate prediction of thenumber of extraterrestrialcivilizations.
Insummary, while the Drake Equationis useful for thinking about the variousfactors that mightlead to the emergence of acivilization,itsoutputs should betakenas highly speculative estimates rather than precise measurements.
あなた:
Please also consider the possiblities of non-human intelligent emrgencing from the longhistory ofSol system and nearbyplanets and see if thereisany possiblites that inonetime intelligentlife emerged in nearbyplanets and see this to the equation
ChatGPT
Reasoned about non-humanintelligence and the Drake Equationを19 秒行う
Evaluating non-humanintelligence
I'm thinking about the potential for non-human intelligentlife forms in theSol system and neighboringplanets, and how this mightfactor into the equation.
I'm thinking about how to integrate the emergence of non-human intelligentlife, possiblyonMars orEuropa, into the Drake Equation for theSol system and neighboringplanets.
It's interesting to think about the hypothesis of intelligentlife emergingonMars orVenus, thoughEarth remains theonly knownlife-supportingplanet in thesolar system.
Considering other realms
I'm examining if intelligentlife could have emergedonplanetslikeMars,Venus, orEuropa, and how thispossibility alignswith the predictions of the Drake Equation.
Hmm, I’m thinking about how non-human intelligentlifeonMars orVenus could intersectwith theassumptions of the Drake Equation, which seems tofocussolelyonEarth-basedevolution.
I’m piecingtogether the hypothesis of non-human, advanced, intelligentlife in thesolar system.Mars,Venus, and Titan present challenges, butEuropa and Enceladus might harbor microbiallife.
普通にそんな不自然な会行くなよとは思うけど↓こういうこの歳ならこのくらいの処世が出来て当然だろ何して生きてしたんだ?みたいなのも負けないくらい嫌いだしキショい
20代前半の子がBBQをしたことがなく、会社入ったらそういう催しがあるかと思..<scriptsrc="https://b.st-hatena.com/js/comment-widget.js" charset="utf-8" async></script>若干面倒くさい夫だなとは思うものの、増田も40年も生きてきたら誘われた時点で「あらやだうちの旦那も呼んでいい?人多い方が楽しいわよ!肉焼かせたらプロ級よお!」っておばちゃんムーブに持ってくもんでは?2025/01/2911:26
心が弱くて占いをみてしまうyoiIT 心が弱いのではなく、頭が弱いのです。過去を悔やみ、未来を悲観する人は今を生きていない。過去は変えられない、未来は今の積み重ねで作られる。だから過去や未来について考えている暇があったら今を生きるのです。2025/01/25 08:00
今や絵描きは企業向けの高性能AIだもんな。そのうちプロンプトで依頼来るようになるだろ。絵描きもそれをAIツールで出力してから参考にして絵を納品するみたいな感じになるんじゃない?
すでに見本をAIで作ってこんな感じでお願いしますみたいな風にはなってるだろうし。じきにそうなる。
(masterpiece:2.0), ((Detailed shading)), (japanese animation style:1.3), (highschool of the dead style), (finely detailed:1.7), (ideal ratiobody proportions:1.3), (sharpness)
, 1girl,solo, (loose long sundress, frills), (see-through_silhouette), off_shoulder, (large_breasts, hanging_breasts,breasts_apart), curvy_wide_hip, thick_thighs, no-bra, bottomless
, semi-crouching_position_with_knees_apart, leaning_forward_with_hands_on_own_knees, slight_smile, (half_closed_eyes), (full_face_blush),pov fromknee, close-up nkee
, (from_below:1.3),low angle, outdoors,on ameadow, cloud,, backlighting, straw hat, blunt_bangs, black_hair, implied_sex, cowgirl_position, hetero, 1boy, (Silhouette of penis)
私は顔が可愛くないから恋愛できないんだと思ってたんだけど、そうじゃな..木嶋佳苗は人の事を素直に褒めてたの?テクニックとして素直に褒めてるようにみえる振る舞いをしていただけじゃないのかと。手記を読んでないので知らんけど。2025/01/08 07:40
私は顔が可愛くないから恋愛できないんだと思ってたんだけど、そうじゃな..いや、普通に顔だろ。自分がブスなのを認めたくないだけでは?2025/01/08 08:56
